Cloud identity integration for cloud-based management of on-premises devices

ABSTRACT

A system, method, and computer-readable medium are disclosed for performing a data center connectivity management operation. The connectivity management operation includes: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to information handling systems. More specifically, embodiments of the invention relate to performing a connectivity management operation.

Description of the Related Art

As the value and use of information continues to increase, individuals and businesses seek additional ways to process and store information. One option available to users is information handling systems. An information handling system generally processes, compiles, stores, and/or communicates information or data for business, personal, or other purposes thereby allowing users to take advantage of the value of the information. Because technology and information handling needs and requirements vary between different users or applications, information handling systems may also vary regarding what information is handled, how the information is handled, how much information is processed, stored, or communicated, and how quickly and efficiently the information may be processed, stored, or communicated. The variations in information handling systems allow for information handling systems to be general or configured for a specific user or specific use such as financial transaction processing, airline reservations, enterprise data storage, or global communications. In addition, information handling systems may include a variety of hardware and software components that may be configured to process, store, and communicate information and may include one or more computer systems, data storage systems, and networking systems.

SUMMARY OF THE INVENTION

In one embodiment the invention relates to a method for performing a connectivity management operation, comprising: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.

In another embodiment the invention relates to a system comprising: a processor; a data bus coupled to the processor; a data center asset client module; and, a non-transitory, computer-readable storage medium embodying computer program code, the non-transitory, computer-readable storage medium being coupled to the data bus, the computer program code interacting with a plurality of computer operations and comprising instructions executable by the processor and configured for: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.

In another embodiment the invention relates to a computer-readable storage medium embodying computer program code, the computer program code comprising computer executable instructions configured for: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention may be better understood, and its numerous objects, features and advantages made apparent to those skilled in the art by referencing the accompanying drawings. The use of the same reference number throughout the several figures designates a like or similar element.

FIG. 1 shows a general illustration of components of an information handling system as implemented in the system and method of the present invention;

FIG. 2 shows a block diagram of a data center system monitoring and management environment;

FIG. 3 shows a functional block diagram of the performance of certain data center monitoring and management operations;

FIG. 4 shows a block diagram of a connectivity management system (CMS);

FIGS. 5 a through 5 d are a sequence diagram showing the performance of certain connectivity management operations; and

FIGS. 6 a through 6 e are a sequence diagram showing the use of security token exchanges to establish connectivity between a data center service and a data center asset.

DETAILED DESCRIPTION

A system, method, and computer-readable medium are disclosed for performing a connectivity management operation. Various aspects of the invention reflect an appreciation that it is common for a typical data center to monitor and manage many different assets, such as certain computing and networking devices, described in greater detail herein. Certain aspects of the invention likewise reflect an appreciation that such data center assets are typically implemented to work in combination with one another for a particular purpose. Likewise, various aspects of the invention reflect an appreciation that such purposes generally involve the performance of a wide variety of tasks, operations, and processes to service certain workloads.

Certain aspects of the invention likewise reflect an appreciation that the use of cloud-based data center management systems often prove to be advantageous as they allow monitoring and management functions to be performed from anywhere, at any time, according to the user's particular needs, and typically at a reduced cost. However, various aspects of the invention likewise reflect an appreciation that the use of such cloud-based approaches may pose certain challenges. For example, communication channels are typically one-way and hindered by firewalls, proxies, and complicated network set-ups. Accordingly, certain aspects of the invention reflect an appreciation there is a need for an always-connected, bidirectional connection to managed data center assets located on the customer's premises such that management actions can be securely performed in real-time.

For purposes of this disclosure, an information handling system may include any instrumentality or aggregate of instrumentalities operable to compute, classify, process, transmit, receive, retrieve, originate, switch, store, display, manifest, detect, record, reproduce, handle, or utilize any form of information, intelligence, or data for business, scientific, control, or other purposes. For example, an information handling system may be a personal computer, a network storage device, or any other suitable device and may vary in size, shape, performance, functionality, and price. The information handling system may include random access memory (RAM), one or more processing resources such as a central processing unit (CPU) or hardware or software control logic, ROM, and/or other types of nonvolatile memory. Additional components of the information handling system may include one or more disk drives, one or more network ports for communicating with external devices as well as various input and output (I/O) devices, such as a keyboard, a mouse, and a video display. The information handling system may also include one or more buses operable to transmit communications between the various hardware components.

FIG. 1 is a generalized illustration of an information handling system 100 that can be used to implement the system and method of the present invention. The information handling system 100 includes a processor (e.g., central processor unit or “CPU”) 102, input/output (I/O) devices 104, such as a display, a keyboard, a mouse, a touchpad or touchscreen, and associated controllers, a hard drive or disk storage 106, and various other subsystems 108. In various embodiments, the information handling system 100 also includes network port 110 operable to connect to a network 140, which is likewise accessible by a service provider server 142. The information handling system 100 likewise includes system memory 112, which is interconnected to the foregoing via one or more buses 114. System memory 112 further comprises operating system (OS) 116 and in various embodiments may also comprise a data center monitoring and management console 118. In one embodiment, the information handling system 100 is able to download the data center monitoring and management console 118 from the service provider server 142. In another embodiment, the data center monitoring and management console 118 is provided as a service from the service provider server 142.

In certain embodiments, the data center monitoring and management console 118 may include a monitoring module 120, a management module 122, an analysis engine 124, a connectivity management system (CMS) 126, a CMS client 130, or a combination thereof. In certain embodiments, the CMS 126 may be implemented to include a CMS aggregator 128. In certain embodiments, the data center monitoring and management console 118 may be implemented to perform a data center monitoring and management operation. In certain embodiments, the information handling system 100 may be implemented to include either a CMS 126, or a CMS client 130, or both.

In certain embodiments, the data center monitoring and management operation may be performed during operation of an information handling system 100. In various embodiments, performance of the data center monitoring and management operation may result in the realization of improved monitoring and management of certain data center assets, as described in greater detail herein. In certain embodiments, the CMS 126 may be implemented in combination with the CMS client 130 to perform a connectivity management operation, described in greater detail herein. As an example, the CMS 126 may be implemented on one information handling system 100, while the CMS client 130 may be implemented on another, as likewise described in greater detail herein.

FIG. 2 is a simplified block diagram of a data center monitoring and management environment implemented in accordance with an embodiment of the invention. As used herein, a data center broadly refers to a building, a dedicated space within a building, or a group of buildings, used to house a collection of interrelated data center assets 244 implemented to work in combination with one another for a particular purpose. As likewise used herein, a data center asset 244 broadly refers to anything, tangible or intangible, that can be owned, controlled, or enabled to produce value as a result of its use within a data center. In certain embodiments, a data center asset 244 may include a product, or a service, or a combination of the two.

As used herein, a tangible data center asset 244 broadly refers to data center asset 244 having a physical substance, such as a computing or network device. Examples of computing devices may include personal computers (PCs), laptop PCs, tablet computers, servers, mainframe computers, Redundant Arrays of Independent Disks (RAID) storage units, their associated internal and external components, and so forth. Likewise, examples of network devices may include routers, switches, hubs, repeaters, bridges, gateways, and so forth. Other examples of a tangible data center asset 244 may include certain data center personnel, such as a data center system administrator, operator, or technician, and so forth. Other examples of a tangible data center asset 244 may include certain maintenance, repair, and operations (MRO) items, such as replacement and upgrade parts for a particular data center asset 244. In certain embodiments, such MRO items may be in the form of consumables, such as air filters, fuses, fasteners, and so forth.

As likewise used herein, an intangible data center asset 244 broadly refers to a data center asset 244 that lacks physical substance. Examples of intangible data center assets 244 may include software applications, software services, firmware code, and other non-physical, computer-based assets. Other examples of intangible data center assets 244 may include digital assets, such as structured and unstructured data of all kinds, still images, video images, audio recordings of speech and other sounds, and so forth. Further examples of intangible data center assets 244 may include intellectual property, such as patents, trademarks, copyrights, trade names, franchises, goodwill, and knowledge resources, such as data center asset 244 documentation. Yet other examples of intangible data center assets 244 may include certain tasks, functions, operations, procedures, or processes performed by data center personnel. Those of skill in the art will recognize that many such examples of tangible and intangible data center assets 244 are possible. Accordingly, the foregoing is not intended to limit the spirit, scope or intent of the invention.

In certain embodiments, the value produced by a data center asset 244 may be tangible or intangible. As used herein, tangible value broadly refers to value that can be measured. Examples of tangible value may include return on investment (ROI), total cost of ownership (TCO), internal rate of return (IRR), increased performance, more efficient use of resources, improvement in sales, decreased customer support costs, and so forth. As likewise used herein, intangible value broadly refers to value that provides a benefit that may be difficult to measure. Examples of intangible value may include improvements in user experience, customer support, and market perception. Skilled practitioner of the art will recognize that many such examples of tangible and intangible value are possible. Accordingly, the foregoing is not intended to limit the spirit, scope or intent of the invention.

In certain embodiments, the data center monitoring and management environment 200 may include a data center monitoring and management console 118. In certain embodiments, the data center monitoring and management console 118 may be implemented to perform a data center monitoring and management operation. As used herein, a data center monitoring and management operation broadly refers to any task, function, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to procure, deploy, configure, implement, operate, monitor, manage, maintain, or remediate a data center asset 244.

In certain embodiments, a data center monitoring and management operation may include a data center monitoring task. As used herein, a data center monitoring task broadly refers to any function, operation, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to monitor the operational status of a particular data center asset 244. In various embodiments, a particular data center asset 244 may be implemented to generate an alert if its operational status exceeds certain parameters. In these embodiments, the definition of such parameters, and the method by which they may be selected, is a matter of design choice.

For example, an internal cooling fan of a server may begin to fail, which in turn may cause the operational temperature of the server to exceed its rated level. In this example, the server may be implemented to generate an alert, which provides notification of the occurrence of a data center issue. As used herein, a data center issue broadly refers to an operational situation associated with a particular component of a data monitoring and management environment 200, which if not corrected, may result in negative consequences. In certain embodiments, a data center issue may be related to the occurrence, or predicted occurrence, of an anomaly within the data center monitoring and management environment 200. In certain embodiments, the anomaly may be related to unusual or unexpected behavior of one or more data center assets 244.

In certain embodiments, a data center monitoring and management operation may include a data center management task. As used herein, a data center management task broadly refers to any function, operation, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to manage a particular data center asset 244. In certain embodiments, a data center management task may include a data center deployment operation, a data center remediation operation, a data center remediation documentation operation, a connectivity management operation, or a combination thereof.

As used herein, a data center deployment operation broadly refers to any function, task, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to install a software file, such as a configuration file, a new software application, a version of an operating system, and so forth, on a data center asset 244. As likewise used herein, a data center remediation operation broadly refers to any function, task, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to correct an operational situation associated with a component of a data monitoring and management environment 200, which if not corrected, may result in negative consequences. A data center remediation documentation operation, as likewise used herein, broadly refers to any function, task, procedure, or process performed, directly or indirectly, within a data center monitoring and management environment 200 to retrieve, generate, revise, update, or store remediation documentation that may be used in the performance of a data center remediation operation.

Likewise, as used herein, a connectivity management operation (also referred to as a data center connectivity management operation) broadly refers to any task, function, procedure, or process performed, directly or indirectly, to manage connectivity between a particular data center asset 244 and a particular data center monitoring and management console 118. In various embodiments, one or more connectivity management operations may be performed to ensure that data exchanged between a particular data center asset 244 and a particular data center monitoring and management console 118 during a communication session is secured. In certain of these embodiments, as described in greater detail herein, various cryptographic approaches familiar to skilled practitioners of the art may be used to secure a particular communication session.

In certain embodiments, the data center monitoring and management console 118 may be implemented to receive an alert corresponding to a particular data center issue. In various embodiments, the data center monitoring and management console 118 may be implemented to receive certain data associated with the operation of a particular data center asset 244. In certain embodiments, such operational data may be received through the use of telemetry approaches familiar to those of skill in the art. In various embodiments, the data center monitoring console 118 may be implemented to process certain operational data received from a particular data center asset to determine whether a data center issue has occurred, is occurring, or is anticipated to occur.

In certain embodiments, the data center monitoring and management console 118 may be implemented to include a monitoring module 120, a management monitor 122, an analysis engine 124, and a connectivity management system (CMS) 126, or a combination thereof. In certain embodiments, the monitoring module 120 may be implemented to monitor the procurement, deployment, implementation, operation, management, maintenance, or remediation of a particular data center asset 244 at any point in its lifecycle. In certain embodiments, the management module 122 may be implemented to manage the procurement, deployment, implementation, operation, monitoring, maintenance, or remediation of a particular data center asset 244 at any point in its lifecycle.

In various embodiments, the monitoring module 120, the management module 122, the analysis engine 124, and the CMS 126 may be implemented, individually or in combination with one another, to perform a data center asset monitoring and management operation, as likewise described in greater detail herein. In various embodiments, a CMS client 130 may be implemented on certain user devices 204, or certain data center assets 244, or a combination thereof. In certain embodiments, the CMS 126 may be implemented in combination with a particular CMS client 130 to perform a connectivity management operation, as described in greater detail herein.

In certain embodiments, the data center monitoring and management environment 200 may include a repository of data center monitoring and management data 220. In certain embodiments, the repository of data center monitoring and management data 220 may be local to the information handling system 100 executing the data center monitoring and management console 118 or may be located remotely. In various embodiments, the repository of data center monitoring and management data 220 may include certain information associated with data center asset data 220, data center asset configuration rules 224, data center infrastructure data 226, data center remediation data 228, and data center personnel data 230.

As used herein, data center asset data 222 broadly refers to information associated with a particular data center asset 244, such as an information handling system 100, or an associated workload, that can be read, measured, and structured into a usable format. For example, data center asset data 222 associated with a particular server may include the number and type of processors it can support, their speed and architecture, minimum and maximum amounts of memory supported, various storage configurations, the number, type, and speed of input/output channels and ports, and so forth. In various embodiments, the data center asset data 222 may likewise include certain performance and configuration information associated with a particular workload, as described in greater detail herein. In various embodiments, the data center asset data 222 may include certain public or proprietary information related to data center asset 244 configurations associated with a particular workload.

In certain embodiments, the data center asset data 222 may include information associated with data center asset 244 types, quantities, locations, use types, optimization types, workloads, performance, support information, and cost factors, or a combination thereof, as described in greater detail herein. In certain embodiments, the data center asset data 222 may include information associated with data center asset 244 utilization patterns, likewise described in greater detail herein. In certain embodiments, the data center asset data 222 may include information associated with the allocation of certain data center asset resources, described in greater detail herein, to a particular workload.

As likewise used herein, a data center asset configuration rule 224 broadly refers to a rule used to configure a particular data center asset 244. In certain embodiments, one or more data center asset configuration rules 224 may be used to verify that a particular data center asset 244 configuration is the most optimal for an associated location, or workload, or to interact with other data center assets 244, or a combination thereof, as described in greater detail herein. In certain embodiments, the data center asset configuration rule 224 may be used in the performance of a data center asset configuration verification operation, a data center remediation operation, or a combination of the two. In certain embodiments, the data center asset configuration verification operation, or the data center remediation operation, or both, may be performed by an asset configuration system 250. In certain embodiments, the asset configuration system 250 may be used in combination with the data center monitoring and management console 118 to perform a data center asset configuration operation, or a data center remediation operation, or a combination of the two.

As used herein, data center infrastructure 226 data broadly refers to any data associated with a data center infrastructure component. As likewise used herein, a data center infrastructure component broadly refers to any component of a data center monitoring and management environment 200 that may be involved, directly or indirectly, in the procurement, deployment, implementation, configuration, operation, monitoring, management, maintenance, or remediation of a particular data center asset 244. In certain embodiments, data center infrastructure components may include physical structures, such as buildings, equipment racks and enclosures, network and electrical cabling, heating, cooling, and ventilation (HVAC) equipment and associated ductwork, electrical transformers and power conditioning systems, water pumps and piping systems, smoke and fire suppression systems, physical security systems and associated peripherals, and so forth. In various embodiments, data center infrastructure components may likewise include the provision of certain services, such as network connectivity, conditioned airflow, electrical power, and water, or a combination thereof.

Data center remediation data 228, as used herein, broadly refers to any data associated with the performance of a data center remediation operation, described in greater details herein. In certain embodiments, the data center remediation data 228 may include information associated with the remediation of a particular data center issue, such as the date and time an alert was received indicating the occurrence of the data center issue. In certain embodiments, the data center remediation data 228 may likewise include the amount of elapsed time before a corresponding data center remediation operation was begun after receiving the alert, and the amount of elapsed time before it was completed. In various embodiments, the data center remediation data 228 may include information related to certain data center issues, the frequency of their occurrence, their respective causes, error codes associated with such data center issues, the respective location of each data center asset 244 associated with such data center issues, and so forth.

In various embodiments, the data center remediation data 228 may include information associated with data center asset 244 replacement parts, or upgrades, or certain third party services that may need to be procured in order to perform the data center remediation operation. Likewise, in certain embodiments, related data center remediation data 228 may include the amount of elapsed time before the replacement parts, or data center asset 244 upgrades, or third party services were received and implemented. In certain embodiments, the data center remediation data 228 may include information associated with data center personnel who may have performed a particular data center remediation operation. Likewise, in certain embodiments, related data center remediation data 228 may include the amount of time the data center personnel actually spent performing the operation, issues encountered in performing the operation, and the eventual outcome of the operation that was performed.

In certain embodiments, the data center remediation data 228 may include remediation documentation associated with performing a data center asset remediation operation associated with a particular data center asset 244. In various embodiments, such remediation documentation may include information associated with certain attributes, features, characteristics, functional capabilities, operational parameters, and so forth, of a particular data center asset 244. In certain embodiments, such remediation documentation may likewise include information, such as step-by-step procedures and associated instructions, video tutorials, diagnostic routines and tests, checklists, and so forth, associated with remediating a particular data center issue.

In certain embodiments, the data center remediation data 228 may include information associated with any related remediation dependencies, such as other data center remediation operations that may need to be performed beforehand. In certain embodiments, the data center remediation data 228 may include certain time restrictions when a data center remediation operation, such as rebooting a particular server, may be performed. In various embodiments, the data center remediation data 228 may likewise include certain autonomous remediation rules, described in greater detail herein. In various embodiments, certain of these autonomous remediation rules may be used in the performance of an autonomous remediation operation, described in greater detail herein. Those of skill in the art will recognize that many such examples of data center remediation data 228 are possible. Accordingly, the foregoing is not intended to limit the spirit, scope, or intent of the invention.

Data center personnel data 230, as used herein, broadly refers to any data associated with data center personnel who may be directly, or indirectly, involved in the procurement, deployment, configuration, implementation, operation, monitoring, management, maintenance, or remediation of a particular data center asset 244. In various embodiments, the data center personnel data 230 may include job title, work assignment, or responsibility information corresponding to certain data center personnel. In various embodiments, the data center personnel data 230 may include information related to the type, and number, of data center remediation operations currently being, or previously, performed by certain data center personnel. In various embodiments, the data center personnel data 230 may include historical information, such as success metrics, associated with data center remediation operations performed by certain data center personnel, such as data center administrators, operators, and technicians. In these embodiments, the data center personnel data 230 may be updated as individual data center personnel complete each data center remediation task, described in greater detail herein, they are assigned.

In various embodiments, the data center personnel data 230 may likewise include education, certification, and skill level information corresponding to certain data center personnel. Likewise, in various embodiments, the data center personnel data 230 may include security-related information, such as security clearances, user IDs, passwords, security-related biometrics, authorizations, and so forth, corresponding to certain data center personnel. Those of skill in the art will recognize that many such examples of data center personnel data 230 are possible. Accordingly, the foregoing is not intended to limit the spirit, scope, or intent of the invention.

In certain embodiments, various data center assets 244 within a data center monitoring and management environment 200 may have certain interdependencies. As an example, a data center monitoring and management environment 200 may have multiple servers interconnected by a storage area network (SAN) providing block-level access to various disk arrays and tape libraries. In this example, the servers, various physical and operational elements of the SAN, as well the disk arrays and tape libraries, are interdependent upon one another.

In certain embodiments, each data center asset 244 in a data center monitoring and management environment 200 may be treated as a separate data center asset 244 and depreciated individually according to their respective attributes. As an example, a particular rack of servers in a data center monitoring and management environment 200 may be made up of a variety of individual servers, each of which may have a different depreciation schedule. To continue the example, certain of these data center assets 244 may be implemented in different combinations to produce an end result. To further illustrate the example, a particular server in the rack of servers may initially be implemented to query a database of customer records. As another example, the same server may be implemented at later time perform an analysis of sales associated with those same customer records.

In certain embodiments, each data center asset 244 in a data center monitoring and management environment 200 may have an associated maintenance schedule and service contract. For example, a data center monitoring and management environment 200 may include a wide variety of servers and storage arrays, which may respectively be manufactured by a variety of manufacturers. In this example, the frequency and nature of scheduled maintenance, as well as service contract terms and conditions, may be different for each server and storage array. In certain embodiments, the individual data center assets 244 in a data center monitoring and management environment 200 may be configured differently, according to their intended use. To continue the previous example, various servers may be configured with faster or additional processors for one intended workload, while other servers may be configured with additional memory for other intended workloads. Likewise, certain storage arrays may be configured as one RAID configuration, while others may be configured as a different RAID configuration.

In certain embodiments, the data center monitoring and management environment 200 may likewise be implemented to include an asset configuration system 250, a product configuration system 252, a product fabrication system 254, and a supply chain system 256, or a combination thereof. In various embodiments, the asset configuration system 250 may be implemented to perform certain data center asset 244 configuration operations. In certain embodiments, the data center asset 244 configuration operation may be performed to configure a particular data center asset 244 for a particular purpose. In certain embodiments, the data center monitoring and management console 118 may be implemented to interact with the asset configuration system 250 to perform a particular data center asset 244 configuration operation. In various embodiments, the asset configuration system 250 may be implemented to generate, manage, and provide, or some combination thereof, data center asset configuration rules 224. In certain of these embodiments, the data center asset configuration rules 224 may be used to configure a particular data center asset 244 for a particular purpose.

In certain embodiments, a user 202 may use a user device 204 to interact with the data center monitoring and management console 118. As used herein, a user device 204 refers to an information handling system such as a personal computer, a laptop computer, a tablet computer, a personal digital assistant (PDA), a smart phone, a mobile telephone, or other device that is capable of processing and communicating data. In certain embodiments, the communication of the data may take place in real-time or near-real-time. As used herein, real-time broadly refers to processing and providing information within a time interval brief enough to not be discernable by a user 202.

In certain embodiments, a user device 204 may be implemented with a camera 206, such as a video camera known to skilled practitioners of the art. In certain embodiments, the camera 206 may be integrated into the user device 204. In certain embodiments, the camera 206 may be implemented as a separate device configured to interoperate with the user device 204. As an example, a webcam familiar to those of skill in the art may be implemented receive and communicate various image and audio signals to a user device 204 via a Universal Serial Bus (USB) interface. In certain embodiments, the user device 204 may be configured to present a data center monitoring and management console user interface (UI) 240. In certain embodiments, the data center monitoring and management console UI 240 may be implemented to present a graphical representation 242 of data center asset monitoring and management information, which is automatically generated in response to interaction with the data center monitoring and management console 118.

In certain embodiments, a data center monitoring and management application 238 may be implemented on a particular user device 204. In various embodiments, the data center monitoring and management application 238 may be implemented on a mobile user device 204, such as a laptop computer, a tablet computer, a smart phone, a dedicated-purpose mobile device, and so forth. In certain of these embodiments, the mobile user device 204 may be used at various locations within the data center monitoring and management environment 200 by the user 202 when performing a data center monitoring and management operation, described in greater detail herein.

In various embodiments, the data center monitoring and management application 238 may be implemented to facilitate a user 202, such as a data center administrator, operator, or technician, to perform a particular data center remediation operation. In various embodiments, such facilitation may include using the data center monitoring and management application 238 to receive a notification of a data center remediation task, described in greater detail herein, being assigned to the user. In certain embodiments, the data center monitoring and management console 118 may be implemented to generate the notification of the data center remediation task assignment, and assign it to the user, as likewise described in greater detail herein. In certain embodiments, the data center monitoring and management console 118 may be implemented to generate the data center remediation task, and once generated, provide it to the data center monitoring and management application 238 associated with the assigned user 202.

In certain embodiments, such facilitation may include using the data center monitoring and management application 238 to receive the data center remediation task from the data center monitoring and management console 118. In various embodiments, such facilitation may include using the data center monitoring and management application 238 to confirm that the user 202 is at the correct physical location of a particular data center asset 244 associated with a corresponding data center issue. In certain of these embodiments, the data center monitoring and management application 238 may be implemented to include certain Global Positioning System (GPS) capabilities, familiar to those of skill in the art, which may be used to determine the physical location of the user 202 in relation to the physical location of a particular data center asset 244.

In various embodiments, such facilitation may include using the data center monitoring and management application 238 to ensure the user 202 is aware of, or is provided the location of, or receives, or a combination thereof, certain remediation resources, described in greater detail herein, that may be needed to perform a particular data center remediation operation. In various embodiments, such facilitation may include using the data center monitoring and management application 238 to view certain remediation documentation, or augmented instructions, related to performing a particular data center remediation operation. In various embodiments, such facilitation may include using the data center monitoring and management application 238 to certify that a particular data center remediation operation has been performed successfully.

In certain embodiments the UI window 240 may be implemented as a UI window of the data center monitoring and management application 238. In various embodiments, the data center monitoring and management application 238 may be implemented to include, in part or in whole, certain functionalities associated with the data center monitoring and management console 118. In certain embodiments, the data center monitoring and management application 238 may be implemented to interact in combination with the data center monitoring and management console 118, and other components of the data center monitoring and management environment 200, to perform a data center monitoring and management operation.

In certain embodiments, the user device 204 may be used to exchange information between the user 202 and the data center monitoring and management console 118, the data center monitoring and management application 238, the asset configuration system 250, the product configuration system 252, the product fabrication system 254, and the supply chain system 256, or a combination thereof, through the use of a network 140. In various embodiments, the asset configuration system 250 may be implemented to configure a particular data center asset 244 to meet certain performance goals. In various embodiments, the asset configuration system 250 may be implemented to use certain data center monitoring and management data 220, certain data center asset configuration rules 226 it may generate or manage, or a combination thereof, to perform such configurations.

In various embodiments, the product configuration system 252 may be implemented to use certain data center monitoring and management data 220 to optimally configure a particular data center asset 244, such as a server, for an intended workload. In various embodiments, the data center monitoring and management data 220 used by the product configuration system 252 may have been generated as a result of certain data center monitoring and management operations, described in greater detail herein, being performed by the data center monitoring and management console 118. In various embodiments, the product configuration system 252 may be implemented to provide certain product configuration information to a product fabrication system 254. In various embodiments, the product fabrication system 254 may be implemented to provide certain product fabrication information to a product fabrication environment (not shown). In certain embodiments, the product fabrication information may be used by the product fabrication environment to fabricate a product, such as a server, to match a particular data center asset 244 configuration.

In various embodiments, the data center monitoring and management console UI 240 may be presented via a website (not shown). In certain embodiments, the website may be provided by one or more of the data center monitoring and management console 118, the asset configuration system 250, the product configuration system 252, the product fabrication system 254, or the supply chain system 256. In certain embodiments, the supply chain system 256 may be implemented to manage the provision, fulfillment, or deployment of a particular data center asset 244 produced in the product fabrication environment. For the purposes of this disclosure a website may be defined as a collection of related web pages which are identified with a common domain name and is published on at least one web server. A website may be accessible via a public IP network or a private local network.

A web page is a document which is accessible via a browser which displays the web page via a display device of an information handling system. In various embodiments, the web page also includes the file which causes the document to be presented via the browser. In various embodiments, the web page may comprise a static web page, which is delivered exactly as stored and a dynamic web page, which is generated by a web application that is driven by software that enhances the web page via user input 208 to a web server.

In certain embodiments, the data center monitoring and management console 118 may be implemented to interact with the asset configuration system 250, the product configuration system 252, the product fabrication system 254, and the supply chain or fulfillment system 256, or a combination thereof, each of which in turn may be executing on a separate information handling system 100. In certain embodiments, the data center monitoring and management console 118 may be implemented to interact with the asset configuration system 250, the product configuration system 252, the product fabrication system 254, and the supply chain or fulfillment system 256, or a combination thereof, to perform a data center monitoring and management operation, as described in greater detail herein.

FIG. 3 shows a functional block diagram of the performance of certain data center monitoring and management operations implemented in accordance with an embodiment of the invention. In various embodiments, a data center monitoring and management environment 200, described in greater detail herein, may be implemented to include one or more data centers, such as data centers ‘1’ 346 through ‘n’ 348. As likewise described in greater detail herein, each of the data centers ‘1’ 346 through ‘n’ 348 may be implemented to include one or more data center assets 244, likewise described in greater detail herein.

In certain embodiments, a data center asset 244 may be implemented to process an associated workload 360. A workload 360, as used herein, broadly refers to a measure of information processing that can be performed by one or more data center assets 244, individually or in combination with one another, within a data center monitoring and management environment 200. In certain embodiments, a workload 360 may be implemented to be processed in a virtual machine (VM) environment, familiar to skilled practitioners of the art. In various embodiments, a workload 360 may be implemented to be processed as a containerized workload 360, likewise familiar to those of skill in the art.

In certain embodiments, as described in greater detail herein, the data center monitoring and management environment 200 may be implemented to include a data center monitoring and management console 118. In certain embodiments, the data center monitoring and management console 118 may be implemented to include a monitoring module 120, a management module 122, an analysis engine 124, and a connectivity management system (CMS) 126, or a combination thereof, as described in greater detail herein. In various embodiments, a CMS client 130, described in greater detail herein may be implemented on certain user devices ‘A’ 304 through ‘x’ 314, or certain data center assets 244, or within data centers ‘1’ 346 through ‘n’ 348, or a combination thereof. In certain embodiments, the CMS 126 may be implemented in combination with a particular CMS client 130 to perform a connectivity management operation, as likewise described in greater detail herein.

As described in greater detail herein, the data center monitoring and management console 118 may be implemented in certain embodiments to perform a data center monitoring and management operation. In certain embodiments, the data center monitoring and management console 118 may be implemented to provide a unified framework for the performance of a plurality of data center monitoring and management operations, by a plurality of users, within a common user interface (UI). In certain embodiments, the data center monitoring and management console 118, and other components of the data center monitoring environment 200, such as the asset configuration system 250, may be implemented to be used by a plurality of users, such as users ‘A’ 302 through ‘x’ 312 shown in FIG. 3 . In various embodiments, certain data center personnel, such as users ‘A’ 302 through ‘x’ 312, may respectively interact with the data center monitoring and management console 118, and other components of the data center monitoring and management environment 200, through the use of an associated user device ‘A’ 304 through ‘x’ 314.

In certain embodiments, such interactions may be respectively presented to users ‘A’ 302 through ‘x’ 312 within a user interface (UI) window 306 through 316, corresponding to user devices ‘A’ 304 through ‘x’ 314. In certain embodiments the UI window 306 through 316 may be implemented in a window of a web browser, familiar to skilled practitioners of the art. In certain embodiments, a data center monitoring and management application (MMA) 310 through 320, described in greater detail herein, may be respectively implemented on user devices ‘A’ 304 through ‘x’ 314. In certain embodiments the UI window 306 through 316 may be respectively implemented as a UI window of the data center MMA 310 through 320. In certain embodiments, the data center MMA 310 through 320 may be implemented to interact in combination with the data center monitoring and management console 118, and other components of the data center monitoring and management environment 200, to perform a data center monitoring and management operation.

In certain embodiments, the interactions with the data center monitoring and management console 118, and other components of the data center monitoring and management environment 200, may respectively be presented as a graphical representation 308 through 318 within UI windows 306 through 316. In various embodiments, such interactions may be presented to users ‘A’ 302 through ‘x’ 312 via a display device 324, such as a projector or large display screen. In certain of these embodiments, the interactions may be presented to users ‘A’ 302 through ‘x’ 312 as a graphical representation 348 within a UI window 336.

In certain embodiments, the display device 324 may be implemented in a command center 350, familiar to those of skill in the art, such as a command center 350 typically found in a data center or a network operations center (NOC). In various embodiments, one or more of the users ‘A’ 302 through ‘x’ 312 may be located within the command center 350. In certain of these embodiments, the display device 324 may be implemented to be generally viewable by one or more of the users ‘A’ 302 through ‘x’ 312.

In certain embodiments, the data center monitoring and management operation may be performed to identify the location 350 of a particular data center asset 244. In certain embodiments, the location 350 of a data center asset 244 may be physical, such as the physical address of its associated data center, a particular room in a building at the physical address, a particular location in an equipment rack in that room, and so forth. In certain embodiments, the location 350 of a data center asset 244 may be non-physical, such as a network address, a domain, a Uniform Resource Locator (URL), a file name in a directory, and so forth.

Certain embodiments of the invention reflect an appreciation that it is not uncommon for large organization to have one or more data centers, such as data centers ‘1’ 346 through ‘n’ 348. Certain embodiments of the invention reflect an appreciation that it is likewise not uncommon for such data centers to have multiple data center system administrators and data center technicians. Likewise, various embodiments of the invention reflect an appreciation that it is common for a data center system administrator to be responsible for planning, initiating, and overseeing the execution of certain data center monitoring and management operations. Certain embodiments of the invention reflect an appreciation that it is common for a data center system administrator, such as user ‘A’ 302, to assign a particular data center monitoring and management operation to a data center technician, such as user ‘x’ 312, as a task to be executed.

Certain embodiments of the invention reflect an appreciation that it is likewise common for a data center administrator, such as user ‘A’ 302, to assume responsibility for performing a particular data center monitoring and management operation. As an example, a data center administrator may receive a stream of data center alerts, each of which is respectively associated with one or more data center issues. To continue the example, several of the alerts may have an initial priority classification of “critical.” However, the administrator may notice that one such alert may be associated with a data center issue that is more critical, or time sensitive, than the others and should be remediated as quickly as possible. Accordingly, the data center administrator may elect to assume responsibility for remediating the data center issue, and as a result, proceed to perform an associated data center remediation operation at that time instead of assigning it to other data center personnel.

Certain embodiments of the invention reflect an appreciation that the number of data center assets 244 in a particular data center ‘1’ 346 through ‘n’ 348 may be quite large. Furthermore, it is not unusual for such data center assets 244 to be procured, deployed, configured, and implemented on a scheduled, or as needed, basis. It is likewise common for certain existing data center assets 244 to be replaced, upgraded, reconfigured, maintained, or remediated on a scheduled, or as-needed, basis. Likewise, certain embodiments of the invention reflect an appreciation that such replacements, upgrades, reconfigurations, maintenance, or remediation may be oriented towards hardware, firmware, software, connectivity, or a combination thereof.

For example, a data center system administrator may be responsible for the creation of data center asset 244 procurement, deployment, configuration, and implementation templates, firmware update bundles, operating system (OS) and software application stacks, and so forth. Likewise, a data center technician may be responsible for receiving a procured data center asset 244, transporting it to a particular data asset location 350 in a particular data center ‘1’ 346 through ‘n’ 348, and implementing it in that location 350. The same, or another, data center technician may then be responsible for configuring the data center asset 244, establishing network connectivity, applying configuration files, and so forth. To continue the example, the same, or another, data center administrator or technician may be responsible for remediating hardware issues, such as replacing a disc drive in a server or Redundant Array of Independent Disks (RAID) array, or software issues, such as updating a hardware driver or the version of a server's operating system. Accordingly, certain embodiments of the invention reflect an appreciation that a significant amount of coordination may be needed between data center system administrators and data center technicians to assure efficient and reliable operation of a data center.

In various embodiments, certain data center monitoring and management operations may include a data center remediation operation, described in greater detail herein. In certain embodiments, a data center remediation operation may be performed to remediate a particular data asset 244 issue at a particular data asset location 350 in a particular data center ‘1’ 346 through ‘n’ 348. In certain embodiments, the data center remediation operation may be performed to ensure that a particular data center asset location 350 in a particular data center ‘1’ 346 through ‘n’ 348 is available for the replacement or upgrade of an existing data center asset 244. As an example, a data center remediation operation may involve deployment of a replacement server that occupies more rack space than the server it will be replacing.

In various embodiments, the data center monitoring and management console 118, or the data center monitoring and management application 310 through 320, or a combination of the two, may be implemented in a failure tracking mode to capture certain data center asset 244 telemetry. In various embodiments, the data center asset 244 telemetry may include data associated with the occurrence of certain events, such as the failure, or anomalous performance, of a particular data center asset 244, or an associated workload 360, in whole, or in part. In certain embodiments, the data center asset 244 telemetry may be captured incrementally to provide a historical perspective of the occurrence, and evolution, of an associated data center issue.

In various embodiments, the data center monitoring and management console 118 may likewise be implemented generate certain remediation operation notes. For example, the data center monitoring and management console 118 may enter certain data center asset 244 remediation instructions in the data center remediation operation notes. In various embodiments, the data center remediation operation notes may be implemented to contain information related to data center asset 244 replacement or upgrade parts, data center asset 244 files that may be needed, installation and configuration instructions related to such files, the physical location 350 of the data center asset 244, and so forth. In certain embodiments, a remediation task 344 may be generated by associating the previously-generated data center remediation operation notes with the remediation documentation, data center asset files, or other remediation resources 342 most pertinent to the data center issue, and the administrator, and any data center personnel selected or its remediation. As used herein, a data center remediation task 344 broadly refers to one or more data center remediation operations, described in greater detail herein, that can be assigned to one or more users ‘A’ 302 through ‘x’ 312.

Certain embodiments of the invention reflect an appreciation that a group of data center personnel, such as users ‘A’ 302 through ‘x’ 312, will likely possess different skills, certifications, levels of education, knowledge, experience, and so forth. As a result, remediation documentation that is suitable for certain data center personnel may not be suitable for others. For example, a relatively inexperienced data center administrator may be overwhelmed by a massive volume of detailed and somewhat arcane minutiae related to the configuration and administration of multiple virtual machines (VMs) on a large server. However, such remediation documentation may be exactly what a highly skilled and experienced data center administrator needs to remediate subtle server and VM configuration issues.

Conversely, the same highly skilled and experienced data center administrator may be hampered, or slowed down, by being provided remediation documentation that is too simplistic, generalized, or high-level for the data center issue they may be attempting to remediate. Likewise, an administrator who is moderately skilled in configuring VMs may benefit from having step-by-step instructions, and corresponding checklists, when remediating a VM-related data center issue. Accordingly, as used herein, pertinent remediation documentation broadly refers to remediation documentation applicable to a corresponding data center issue that is most suited to the skills, certifications, level of education, knowledge, experience, and so forth of the data center personnel assigned to its remediation.

In various embodiments, the data center monitoring and management console 118 may be implemented to generate a corresponding notification of the remediation task 344. In certain embodiments, the resulting notification of the remediation task 344 assignment may be provided to the one or more users ‘A’ 302 through ‘x’ 312 assigned to perform the remediation task 344. In certain embodiments, the notification of the remediation task 344 assignment may be respectively provided to the one or more users ‘A’ 302 through ‘x’ 312 within the UI 306 through 316 of their respective user devices ‘A’ 304 through ‘x’ 314. In certain embodiments, the notification of the remediation task 344 assignment, and the remediation task 344 itself, may be implemented such that they are only visible to the users ‘A’ 302 through ‘x’ 312 to which it is assigned.

In certain embodiments, the data center monitoring and management console 118 may be implemented to operate in a monitoring mode. As used herein, monitoring mode broadly refers to a mode of operation where certain monitoring information provided by the monitoring and management console 118 is available for use by one or more users ‘A’ 302 through ‘x’ 312. In certain embodiments, one or more of the users ‘A’ 302 through ‘x’ 312 may be command center 350 users. In certain embodiments, the data center monitoring and management console 118 may be implemented to operate in a management mode. As used herein, management mode broadly refers to a mode of operation where certain operational functionality of the data center monitoring and management console 118 is available for use by a user, such as users ‘A’ 302 through ‘x’ 312.

FIG. 4 shows a block diagram of a connectivity management system implemented in accordance with an embodiment of the invention. In various embodiments, a data center monitoring and management console 118, described in greater detail herein, may be implemented to include a connectivity management system (CMS) 126. In certain embodiments, the CMS 126 may be implemented in combination with a CMS client 130 to perform a connectivity management operation, likewise described in greater detail herein. In various embodiments, one or more connectivity management operations may be performed to initiate, and manage, secure, bi-directional, real-time connectivity between a data center monitoring and management console 118 and a particular data center asset 244, each of which are likewise described in greater detail herein.

In various embodiments, the data center monitoring and management console 118 may be implemented in a cloud environment familiar to skilled practitioners of the art. In certain of these embodiments, the operator of the data center monitoring and management console 118 may offer its various functionalities and capabilities in the form of one or more or more cloud-based data center services 432, described in greater detail herein. In various embodiments, one or more data center assets 244 may be implemented within a data center 402, likewise described in greater detail herein. In certain of these embodiments, the data center 402 may reside on the premises of a user of one or more data center services 432 provided by the operator of the data center monitoring and management console 118.

In various embodiments, the connectivity management system 126 may be implemented to include one or more CMS aggregators 128, one or more CMS services 422, and a service mesh proxy 434, or a combination thereof. In various embodiments, the CMS aggregator 128 may be implemented to interact with one or more of the CMS services 422, as described in greater detail herein. In various embodiments, the data center services 432 may likewise be implemented to interact with one or more of the CMS services 422, and the service mesh proxy 434, or a combination thereof. In certain embodiments, the CMS services 422 may be implemented to include a CMS discovery 424 service, a CMS authentication 426 service, a CMS inventory 428 service, and a CMS authorization 430 service, or a combination thereof.

In various embodiments, one or more data center assets 244 may be implemented within a data center 402, described in greater detail herein. In certain embodiments, the data center 402 may be implemented to include an associated data center firewall 416. In certain embodiments, a CMS client 130 may be implemented on one or more data center assets 244. In various embodiments, a CMS client 130 implemented on one data center asset 244 may likewise be implemented to enable one or more connectivity management operations associated with one or more other data center assets 444 that are not respectively implemented with their own CMS client 130. In certain of these embodiments, the CMS client 130 may be implemented to assume the identity, and attributes, of a particular data center asset it is directly, or indirectly, associated with.

In various embodiments, the CMS client 130 may be implemented with a proxy management module 406. In certain of these embodiments, the proxy management module 406 may be implemented to manage the CMS client's 130 connectivity to an external network 140 through an intermediary proxy server, or the data center firewall 416, or both. Those of skill in the art will be familiar with a proxy server, which as typically implemented, is a server application that acts as an intermediary between a client, such as a web browser, requesting a resource, such as a web page, from a provider of that resource, such as a web server.

In certain embodiments, the client of a proxy server may be a particular data center asset 244 requesting a resource, such as a particular data center service 432, from the data center monitoring and management console 118. Skilled practitioners of the art will likewise be aware that in typical proxy server implementations, a client may direct a request to a proxy server, which evaluates the request and performs the network transactions needed to forward the request to a designated resource provider. Accordingly, the proxy server functions as a relay between the client and a server, and as such acts as an intermediary.

Those of skill in the art will be aware that proxy servers also assist in preventing an attacker from invading a private network, such as one implemented within a data center 402 to provide network connectivity to, and between, certain data center assets 244. Skilled practitioners of the art will likewise be aware that server proxies are often implemented in combination with a firewall, such as the data center firewall 416. In such implementations, the proxy server, due to it acting as an intermediary, effectively hides an internal network from the Internet, while the firewall prevents unauthorized access by blocking certain ports and programs.

Accordingly, a firewall may be configured to allow traffic emanating from a proxy server to pass through to an external network 140, while blocking all other traffic from an internal network. Conversely, a firewall may likewise be configured to allow network 140 traffic emanating from a trusted source to pass through to an internal network, while blocking traffic from unknown or untrusted external sources. As an example, the data center firewall 416 may be configured in various embodiments to allow traffic emanating from the CMS client 130 to pass, while the service provider firewall 420 may be configured to allow traffic emanating from the CMS aggregator 128 to pass. Likewise, the service provider firewall 420 may be configured in various embodiments to allow incoming traffic emanating from the CMS client 130 to be received, while the data center firewall 416 may be configured to allow incoming network traffic emanating from the CMS aggregator 128 to be received.

In various embodiments, a particular CMS aggregator 128 may be implemented in combination with a particular CMS client 130 to provide a split proxy that allows an associated data center asset 244 to securely communicate with a data center monitoring and management console 118. In various embodiments, the split proxy may be implemented in a client/server configuration. In certain of these embodiments, the CMS client 130 may be implemented as the client component of the client/server configuration and the CMS aggregator 128 may be implemented as the server component. In certain of these embodiments, one or more connectivity management operations may be respectively performed by the CMS aggregator 128 and the CMS client 130 to establish a secure tunnel connection 418 through a particular network 140, such as the Internet.

In various embodiments, the secure tunnel connection 418 may be initiated by the CMS client 130 first determining the address of the CMS aggregator 128 it intends to connect to. In these embodiments, the method by which the address of the CMS aggregator 128 is determined is a matter of design choice. Once the address of the CMS aggregator 128 is determined, the CMS client 130 uses it to establish a secure Hypertext Transport Protocol (HTTPS) connection with the CMS aggregator 128 itself.

In response, the CMS aggregator 128 sets its HTTPS Transport Layer Security (TLS) configuration to “request TLS certificate” from the CMS client 130, which triggers the CMS client 130 to provide its requested TLS certificate 408. In certain embodiments, the CMS authentication 426 service may be implemented to generate and provision the TLS certificate 408 for the CMS client 130. In certain embodiments, the CMS client 130 may be implemented to generate a self-signed TLS certificate if it has not yet been provisioned with one from the CMS authentication 426 service.

In various embodiments, the CMS client 130 may then provide an HTTP header with a previously-provisioned authorization token. In certain embodiments, the authorization token may have been generated and provisioned by the CMS authentication 426 service once the CMS client has been claimed. As used herein, a claimed CMS client 130 broadly refers to a particular CMS client 130 that has been bound to an account associated with a user, such as a customer, of one or more data center services 432 provided by the data center monitoring and management console 118.

In certain embodiments, a CMS client 130 may be implemented to maintain its claimed state by renewing its certificate 408 and being provided an associated claim token. In these embodiments, the frequency, or conditions under which, a CMS client's certificate 408 is renewed, or the method by which it is renewed, or both, is a matter of design choice. Likewise, in these same embodiments, the frequency, or conditions under which, an associated claim token is generated, or the method by which it is provided to a CMS client 130, or both, is a matter of design choice.

In various embodiments, the CMS client 130 may be implemented to have a stable, persistent, and unique identifier (ID) after it is claimed. In certain of these embodiments, the CMS client's 130 unique ID may be stored within the authorization token. In these embodiments, the method by the CMS client's 130 unique ID is determine, and the method by which it is stored within an associated authorization token, is a matter of design choice.

Once the CMS client 130 has been claimed, it may be implemented to convert the HTTPS connection to a Websocket connection, familiar to those of skill in the art. After the HTTP connection has been converted to a Websocket connection, tunnel packet processing is initiated and the CMS aggregator 128 may then perform a Representational State Transfer (REST) request the CMS client 130 to validate its certificate 408. In certain embodiments, the validation of the CMS client's 130 certificate 408 is performed by the CMS authorization 430 service.

In various embodiments, the validation of the CMS client's 130 certificate 408 is performed to determine a trust level for the CMS client 130. In certain of these embodiments, if the CMS client's 130 certificate 408 is validated, then it is assigned a “trusted” classification. Likewise, if CMS client's 130 certificate 408 fails to be validated, then it is assigned an “untrusted” classification.

Accordingly, certain embodiments of the invention reflect an appreciation that “trusted” and “claimed,” as used herein as they relate to a CMS client 130 are orthogonal. More specifically, “trust” means that the channel of communication can be guaranteed. Likewise, “claimed” the CMS client 130 can be authenticated and bound to a user, or customer, of one or more data center services 432 provided by the data center monitoring and management console 118.

In various embodiments, the resulting secure tunnel connection 418 may be implemented to provide a secure channel of communication through a data center firewall 416 associated with a particular data center 402 and a service provider firewall 420 associated with a particular data center monitoring and management console 118. In various embodiments, the CMS client 130, the secure tunnel connection 418, and the CMS aggregator 128 may be implemented to operate at the application level of the Open Systems Interconnection (OSI) model, familiar to those of skill in the art. Skilled practitioners of the art will likewise be aware that known approaches to network tunneling typically use the network layer of the OSI model. In certain embodiments, the CMS client 130 and the CMS aggregator 128 may be implemented to end logical events over the secure tunnel connection 418 to encapsulate and multiplex individual connection streams and associated metadata.

In various embodiments, the CMS discovery 424 service may be implemented to identify certain data center assets 244 to be registered and managed by the data center monitoring and management console 118. In various embodiments, the CMS discovery 424 service may be implemented to detect certain events published by a CMS aggregator 128. In certain embodiments, the CMS discovery 424 service may be implemented to maintain a database (not shown) of the respective attributes of all CMS aggregators 128 and CMS clients 130. In certain embodiments, the CMS discovery 424 service may be implemented to track the relationships between individual CMS clients 130 and the CMS aggregators 128 they may be connected to.

In various embodiments, the CMS discovery 424 service may be implemented to detect CMS client 130 connections and disconnections with a corresponding CMS aggregator 128. In certain of these embodiments, a record of such connections and disconnections is stored in a database (not shown) associated with the CMS inventory 428 service. In various embodiments, the CMS discovery 424 service may be implemented to detect CMS aggregator 128 start-up and shut-down events. In certain of these embodiments, a record of related Internet Protocol (IP) addresses and associated state information may is stored in a database (not shown) associated with the CMS inventory 428 service.

In various embodiments, the CMS authentication 426 service may be implemented to include certain certificate authority (CA) capabilities. In various embodiments, the CMS authentication 426 service may be implemented to generate a certificate 408 for an associated CMS client 130. In various embodiments, the CMS authentication 426 service may be implemented to use a third party CA for the generation of a digital certificate for a particular data center asset 244. In certain embodiments, the CMS inventory 428 service may be implemented to maintain an inventory of each CMS aggregator 128 by an associated unique ID. In certain embodiments, the CMS inventory 428 service may likewise be implemented to maintain an inventory of each CMS client 130 by an associated globally unique identifier (GUID).

In various embodiments, the CMS authorization 430 service may be implemented to authenticate a particular data center asset 244 by requesting certain proof of possession information, and then processing it once it is received. In certain of these embodiments, the proof of possession information may include information associated with whether or not a particular CMS client 130 possesses the private keys corresponding to an associated certificate 408. In various embodiments, the CMS authorization 430 service may be implemented to authenticate a particular CMS client 130 associated with a corresponding data center asset 244. In certain of these embodiments, the CMS authorization 430 service may be implemented to perform the authentication by examining a certificate 408 associated with the CMS client 130 to ensure that it has been signed by the CMS authentication 426 service.

In various embodiments, the service mesh proxy 434 may be implemented to integrate knowledge pertaining to individual data center assets 244 into a service mesh such that certain data center services 432 have a uniform method of transparently accessing them. In various embodiments, the service mesh proxy 434 may be implemented with certain protocols corresponding to certain data center assets 244. In certain embodiments, the service mesh proxy 434 may be implemented to encapsulate and multiplex individual connection streams and metadata over the secure tunnel connection 418. In certain embodiments, these individual connection streams and metadata may be associated with one or more data center assets 244, one or more data center services 432, one or more CMS clients 130, and one or more CMS aggregators 128, or a combination thereof.

FIGS. 5 a through 5 d are a sequence diagram showing the performance of certain connectivity management operations implemented in accordance with an embodiment of the invention. In this embodiment, the CMS client 130 establishes a secure Hypertext Transfer Protocol (HTTPS) connection with the CMS aggregator 128 in step 502, as described in greater detail herein, followed by the provision of its temporary client ID and its previously-provisioned digital certificate to the CMS aggregator in step 504.

The CMS aggregator 128 then provides the CMS client 130 ID and (self-signed) digital certificate to the CMS authorization 430 service for authentication in step 506. Once the CMS client's 130 credentials have been validated in step 508, notification of their validation is provided to the CMS aggregator 128 by the CMS authorization 430 service in step 510. In response, the CMS aggregator 128 announces a new CMS client 130 to the CMS inventory 428 service in step 512, followed by the CMS aggregator 128 notifying the CMS client 130 that its digital certificate has been validated in step 514. The CMS client 130 then collects certain information from the data center asset 244 and in step 516, followed by establishing a secure tunnel connection with the CMS aggregator 128 in step 518, which is then multiplexed in step 520, as described in greater detail herein.

Thereafter, the CMS client 130 announces itself to the CMS aggregator 128 and provides it the collected data center asset information in step 522. In turn, the CMS aggregator 128 announces the CMS client 130 as being in an untrusted/unclaimed state, first to the CMS inventory 428 service in step 524, and then to the CMS authorization 430 service in step 526. In turn, the CMS authorization 430 service then requests the CMS aggregator 128 to provide proof of possession in step 528. In response, the CMS aggregator 128 authenticates the proof of possession request in step 530 and the CMS authentication 426 service generates a CMS-signed digital certificate in step 530.

The resulting CMS-signed digital certificate is then provided by the CMS authentication service 426 to the CMS aggregator 128 in step 534. In turn, the CMS aggregator 128 respectively provides the proof of possession and the CMS-signed digital certificate to the CMS client 130 in steps 536 and 538. In response, the CMS client 130 announces itself to be in a trusted/unclaimed state to the CMS aggregator 128 in step 540. In turn, the CMS aggregator 128 announces the CMS client 130 to be in a trusted/unclaimed state to the CMS authorization 430 service in step 542 and to the CMS inventory 428 service in step 544.

The CMS authentication 426 service then determines ownership of the CMS client 130 in step 546, followed by the CMS aggregator 128 providing certain location information associated with the management server to the CMS client 130 in step 548. In turn, the CMS client 130 requests an ownership voucher from the CMS authentication 426 service in step 550. In response, the CMS authorization 430 generates an ownership voucher in step 552 and provides it to the CMS client 130 in step 554. Once it receives the ownership voucher, the CMS client 130 respectively announces itself as trusted/claimed to the CMS authorization service 430 and the CMS inventory 428 service in steps 556 and 558.

FIGS. 6 a through 6 e are a sequence diagram showing the use of security token exchanges implemented in accordance with an embodiment of the invention to establish connectivity between a data center service and a data center asset. Various embodiments of the invention reflect an appreciation that it may be advantageous for a particular data center asset 244, described in greater detail herein, to be able to authorize an Application Programming Interface (API) request from a particular data center service 432, likewise described in greater detail herein. Certain of these embodiments reflect an appreciation that such API requests may be user-initiated 602 or data center service-initiated 620. Certain embodiments of the invention likewise reflect an appreciation that preventing unauthorized traffic reaching a particular data center asset 244, without compromising end-to-end encryption, may provide additional operational security for an on-premise data center asset and its associated operational environment.

In various embodiments, proxy authorizations and device API authorizations may be implemented to be performed separately. In certain of these embodiments, one or more security token exchanges, familiar to skilled practitioners of the art, may be implemented during the performance of such proxy and device API authorizations. In certain embodiments, the one or more security tokens may be generated by a particular connectivity management system (CMS) service, described in greater detail herein. In various embodiments, the one or more security token exchanges may be performed according to the concepts, definitions, processes, and procedures included in the Internet Engineering Task Force (IETF) Request For Comment (RFC) 8693, published in January, 2020. In various embodiments, the decoupling of the proxy authorization and the device API authorizations may be respectively implemented to allow the use of different transport and authorization protocols.

In various embodiments, a connectivity management system (CMS) aggregator 128, described in greater detail herein, may be implemented to expose a Hypertext Transport Protocol (HTTP) CONNECT proxy to an associated data center service 432. In certain of these embodiments, the CMS aggregator 128 may be implemented to require the provision of a proxy access token be provided by the associated data center service 432 to allow the connection. In certain embodiments, the CMS client 130 may be implemented to access a particular CMS authorization service 430 to authorize an API request.

In various embodiments, an on-premise data center asset 244 may be implemented to independently authorize, according to certain policies, as described in greater detail herein, a trusted and secure connection with a particular data center service 432. In certain of these embodiments, the CMS aggregator 128 may be implemented to not see the on-premise data center asset's 244 authorization. Instead, it only sees a proxy access token from a corresponding data center service 432, which it may use to authorize the trusted and secure connection. Accordingly, in certain embodiments, the CMS aggregator 128 does not see the data center asset's 244 authorization, thereby adhering to zero trust principles familiar to those of skill in the art, while retaining the ability to authorize the connection between the data center asset 244 and an associated data center service 432.

Referring now to FIGS. 6 a through 6 e , certain connectivity management operations, described in greater detail herein, may be performed in various embodiments to establish connectivity between a particular data center service 432 and a target data center asset 244. In various embodiments, the connectivity management operations shown in FIGS. 6 a through 6 e may be user-initiated 602. In certain of these embodiments, a user 202 may first establish connectivity in step 604 with a data center asset monitoring and management console, likewise described in greater detail herein, that may be implemented to include a particular data center service 432. Then, in step 606, the user 202 may submit their user entity token along with a request that the target data center asset 244 be accessed by the data center service 432 for provision of an associated service.

In certain embodiments, the data center service 432 may be implemented in step 608 to provide the previously-received user entity token to a CMS authorization 430 service, described in greater detail herein, and request a proxy access token in exchange. In response, the CMS authorization 430 service may be implemented in step 610 to exchange the previously-provided user entity token for the requested proxy access token. In turn, the CMS authorization 430 service may then be implemented to provide the requested proxy access token to the data center service 432 in step 612.

Then, in step 614, the data center service 432 may be implemented to provide the previously-received user entity token to the CMS authorization 430 service and likewise request a device access token corresponding to the target data center asset 244 in exchange. In response, the CMS authorization 430 service may once again be implemented in step 616 to exchange the provided user entity token for the requested device access token. In turn, the CMS authorization 430 service may then be implemented to provide the device access token to the data center service 432 in step 618.

In various embodiments, the connectivity management operations shown in FIGS. 6 a through 6 e may be service-initiated 620. In certain of these embodiments, the data center service 432 may be implemented in step 622 to provide its service entity token to the CMS authorization 430 service and request a proxy access token in exchange. In response, the CMS authorization 430 service may be implemented in step 624 to exchange the previously-provided service entity token for a proxy access token. In turn, the CMS authorization 430 service may then be implemented to provide the proxy access token to the data center service 432 in step 626.

Then, in step 628, the data center service 432 may be implemented to provide its service entity token to the CMS authorization 430 service and request a device access token corresponding to with the target data center asset 244 in exchange. In response, the CMS authorization 430 service may once again be implemented in step 630 to exchange the provided service entity token for the requested device access token. In turn, the CMS authorization 430 service may then be implemented to provide the device access token to the data center service 432 in step 632.

In various embodiments, the data center service 432 may be implemented in step 634 to establish connectivity with a mesh proxy service 434, described in greater detail herein, once it has respectively received proxy access tokens in steps 612 or 626 and device access tokens in steps 618 or 632. In certain of these embodiments, the data center service 432 may be implemented to use the proxy access token previously provided by the CMS authorization 430 service to establish connectivity with the mesh proxy service 432. In various embodiments, the data center asset 432 and the mesh service proxy 434 may be implemented in combination in step 636 to establish a Mutual Transport Layer Security (mTLS) session, familiar to those of skill in the art, over the previously-established connection between them.

In various embodiments, the data center service 432 may be implemented in step 638 to issue an HTTP CONNECT request to a particular CMS aggregator 128 once the mTLS session has been established. In certain of these embodiments, the data center service 432 may likewise be implemented to provide the previously-received proxy access token within the authorization header of the HTTP CONNECT request. In various embodiments, the CMS aggregator 128 may be implemented in step 640 to authorize the HTTP CONNECT request according to certain policies. In these embodiments, the substance, particulars, and context of such policies, and the method by which they may be generated, managed, and enforced by the CMS aggregator 128 is a matter of design choice.

In various embodiments, the data center service 432 and the data center asset 244 may be implemented in combination in step 642 to establish a secure tunnel connection between themselves. In certain embodiments, the CMS aggregator 128 and a CMS client 130 associated with the target data center asset 244 may be implemented in combination to establish the secure tunnel connection. In various embodiments, the data center service 432 and the data center asset 244 may be implemented in combination to establish an mTLS session over the previously-established connection between them in step 644.

In various embodiments, the data center service 432 may be implemented in step 646 to place an API request to the data center asset 244 over the previously-established mTLS connection. In certain of these embodiments, the data center service 432 may likewise be implemented to provide the previously-received device access token within the authorization header of the API request. In various embodiments, the data center asset 244 may be implemented in step 648 to authorize the API request according to certain policies. In these embodiments, the substance, particulars, and context of such policies, and the method by which they may be generated, managed, and enforced by the data center asset 244 is a matter of design choice. Once the API request has been authorized by the data center asset 244, then a secure, end-to end connection is established by itself and the data center service 432 in step 650.

As will be appreciated by one skilled in the art, the present invention may be embodied as a method, system, or computer program product. Accordingly, embodiments of the invention may be implemented entirely in hardware, entirely in software (including firmware, resident software, micro-code, etc.) or in an embodiment combining software and hardware. These various embodiments may all generally be referred to herein as a “circuit,” “module,” or “system.” Furthermore, the present invention may take the form of a computer program product on a computer-usable storage medium having computer-usable program code embodied in the medium.

Any suitable computer usable or computer readable medium may be utilized. The computer-usable or computer-readable medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device. More specific examples (a non-exhaustive list) of the computer-readable medium would include the following: a portable computer diskette, a hard disk, a random access memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or Flash memory), a portable compact disc read-only memory (CD-ROM), an optical storage device, or a magnetic storage device. In the context of this document, a computer-usable or computer-readable medium may be any medium that can contain, store, communicate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

Computer program code for carrying out operations of the present invention may be written in an object oriented programming language such as Java, Smalltalk, C++ or the like. However, the computer program code for carrying out operations of the present invention may also be written in conventional procedural programming languages, such as the “C” programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the latter scenario, the remote computer may be connected to the user's computer through a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider).

Embodiments of the invention are described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function/act specified in the flowchart and/or block diagram block or blocks.

The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.

The present invention is well adapted to attain the advantages mentioned as well as others inherent therein. While the present invention has been depicted, described, and is defined by reference to particular embodiments of the invention, such references do not imply a limitation on the invention, and no such limitation is to be inferred. The invention is capable of considerable modification, alteration, and equivalents in form and function, as will occur to those ordinarily skilled in the pertinent arts. The depicted and described embodiments are examples only, and are not exhaustive of the scope of the invention.

Consequently, the invention is intended to be limited only by the spirit and scope of the appended claims, giving full cognizance to equivalents in all respects. 

What is claimed is:
 1. A computer-implementable method for performing a data center connectivity management operation, comprising: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.
 2. The method of claim 1, wherein: the entity token comprises at least one of a user entity token and a service entity token.
 3. The method of claim 1, wherein: the entity token and the proxy access token decouple proxy authorization from device API authorization.
 4. The method of claim 1, further comprising: establishing a transport layer security (TLS) session when the connectivity is established between the mesh service proxy and the data center service.
 5. The method of claim 4, wherein: the transport layer security session comprises a mutual transport security layer (mTLS) session, the mTLS session providing two way verification.
 6. The method of claim 1, further comprising: establishing a connection between a data center service and a data center asset, the connection comprising an application program (API) request and the data center asset comprising an associated device API.
 7. A system comprising: a processor; a data bus coupled to the processor; a data center asset client module; and, a non-transitory, computer-readable storage medium embodying computer program code, the non-transitory, computer-readable storage medium being coupled to the data bus, the computer program code interacting with a plurality of computer operations and comprising instructions executable by the processor and configured for: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.
 8. The system of claim 7, wherein: the entity token comprises at least one of a user entity token and a service entity token.
 9. The system of claim 7, wherein: the entity token and the proxy access token decouple proxy authorization from device API authorization.
 10. The system of claim 7, wherein the instructions executable by the processor are further configured for: establishing a transport layer security (TLS) session when the connectivity is established between the mesh service proxy and the data center service.
 11. The system of claim 10, wherein: the transport layer security session comprises a mutual transport security layer (mTLS) session, the mTLS session providing two way verification.
 12. The system of claim 7, wherein the instructions executable by the processor are further configured for: establishing a connection between a data center service and a data center asset, the connection comprising an application program (API) request and the data center asset comprising an associated device API.
 13. A non-transitory, computer-readable storage medium embodying computer program code, the computer program code comprising computer executable instructions configured for: exchanging an entity token for a proxy access token and a device access token via a communication management system authorization service; using the proxy access token to authenticate the data center service to a mesh service proxy; establishing connectivity between the data center service and the mesh service proxy based upon the proxy access token; establishing a secure communication channel between the data center service and a data center asset based upon the device access token; providing the device access token to the data center asset from the data center service; validating the data center asset using the device access token; establishing an end-to-end secure connection between the data center service and the data center asset when the device access token has been validated; and, exchanging information between the data center service and the data center asset via the secure communication channel.
 14. The non-transitory, computer-readable storage medium of claim 13, wherein: the entity token comprises at least one of a user entity token and a service entity token.
 15. The non-transitory, computer-readable storage medium of claim 13, wherein: the entity token and the proxy access token decouple proxy authorization from device API authorization.
 16. The non-transitory, computer-readable storage medium of claim 13, wherein the computer executable instructions are further configured for: establishing a transport layer security (TLS) session when the connectivity is established between the mesh service proxy and the data center service.
 17. The non-transitory, computer-readable storage medium of claim 16, wherein: the transport layer security session comprises a mutual transport security layer (mTLS) session, the mTLS session providing two way verification.
 18. The non-transitory, computer-readable storage medium of claim 13, wherein the computer executable instructions are further configured for: establishing a connection between a data center service and a data center asset, the connection comprising an application program (API) request and the data center asset comprising an associated device API.
 19. The non-transitory, computer-readable storage medium of claim 13, wherein: the computer executable instructions are deployable to a client system from a server system at a remote location.
 20. The non-transitory, computer-readable storage medium of claim 13, wherein: the computer executable instructions are provided by a service provider to a user on an on-demand basis. 